From the following data at `25^(@)C`, calculate the bond energy of O – H bond:
(i) `H_(2)(g) to 2H(g), Delta H_(1) = 104.2 kcal`
(ii) `O_(2)(g) to 2O(g), DeltaH_(2) = 118.4 kcal `
(iii) `H_(2)(g) + 1/2 O_(2)(g) to H_(2)O(g), Delta H_(3) = -57.8 k cal`

Calculate the enthalpy of formation of ethane from the following data : (i) C(s) + O_(2)(g) to CO_(2)(g) , Delta_(r)H^(@) = -393.5 kJ (ii) H_(2)(g) + 1/2 O_(2)(g) to H_(2)O(l), Delta_(r)H^(@) = -285.8 kJ (iii) C_(2)H_(6)(g) + 7/2O_(2)(g) to 2CO_(2)(g) + 3H_(2)O(l), Delta_(r)H^(@) = -1560.0 kJ

Diborane is a potential rocket fuel which undergoes combustion according to the reaction, B_(2)H_(6) (g) + 3O_(2) (g) rarr B_(2) O_(3) (s) + 3H_(2) O (g) From the following data, calculate the enthalpy change for the combustion of diborane: (i) 2 B (s) + ((3)/(2)) O_(2) (g) rarr B_(2) O_(3) (s) , Delta H = 0 1273 k J//mol (ii) H_(2) (g) + ((1)/(2)) O_(2) (g) rarr H_(2) O (l), Delta H = -286 kJ//mol (iii) H_(2) O (l) rarr H_(2)O (g) Delta H = 44 kJ//mol (iv) 2B (s) + 3H_(2) (G) rarr B_(2) H_(6) (g), Delta H = 36 kJ//mol

The H - O - O bond angle in H_(2)O_(2) (g) is

From the following data , C_("s , graphite") + O_(2(g)) to CO_(2 (g)) Delta H^(@) = - 393 . 5 kJ /mole H_(2) (g) + 1//2 O_(2) (g) to H_(2)O (l) Delta H^(@) = -286 kJ/mole 2C_(2) H_(6) (g) + 7O_(2) (g) to 4 CO_(2 (g)) + 6H_(2)O (l) Delta H^(@) = - 3120 kJ/mole Calculate the standard enthalpy of formation of C_(2) H_(6) (g) (in kJ/mole)

Calculate in kJ for the following reaction : C(g) + O_(2)(g) rarr CO_(2)(g) Given that, H_(2)O(g) + C(g) + H_(2)(g) , Delta H = +131 kJ CO(g) + 1/2 O_(2)(g) rarr CO_(2)(g), " " Delta H = -242 kJ H_(2)(g) + 1/2 O_(2)(g) rarr H_(2)O(g), " "DeltaH = -242 kJ